Methods for stimulating plant growth and/or promoting plant health using free enzymes or recombinant microorganisms that overexpress enzymes are provided. Plant seeds coated with free enzymes or recombinant microorganisms that overexpress enzymes are also provided. Compositions comprising a fertilizer and an enzyme or a recombinant microorganism that overexpresses an enzyme are provided. Modified enzymes having ACC deaminase activity, recombinant microorganisms expressing the modified enzymes, plant seeds treated with the modified enzymes or recombinant microorganisms, and methods for stimulating plant growth and/or promoting plant health using the modified enzymes or recombinant microorganisms are also provided.

This present invention relates to isolation and derivation of nucleic acid sequences from monocot plants, preferably rice that are capable of driving and/or regulating a stress induced expression of an operably linked nucleic acid. The present invention also is directed to the use of the isolated nucleic acid to drive and/or regulate a stress-induced expression of an operably linked nucleic acid. The isolated nucleic acid sequence of the present invention as set forth in SEQ ID NO 3 or SEQ ID NO 6 or SEQ ID NO 7 or SEQ ID NO 9 or the complement thereof can be an inducible promoter. The promoters of the invention can be induced by abiotic stress such as water, cold, heat and/or salinity or a biotic stress such as by a virus, bacteria, or fungi.

Methods for stimulating plant growth and/or promoting plant health using free enzymes or recombinant microorganisms that overexpress enzymes are provided. Plant seeds coated with free enzymes or recombinant microorganisms that overexpress enzymes are also provided. Compositions comprising a fertilizer and an enzyme or a recombinant microorganism that overexpresses an enzyme are provided. Modified enzymes having ACC deaminase activity, recombinant microorganisms expressing the modified enzymes, plant seeds treated with the modified enzymes or recombinant microorganisms, and methods for stimulating plant growth and/or promoting plant health using the modified enzymes or recombinant microorganisms are also provided.

A stress inducible promoter having a nucleic acid sequence as in SEQ ID No. 1 or SEQ ID No.2 or SEQ ID No.3 or complements thereof. The promoter can be an abiotic stress inducible promoter. The promoter can be induced by salt, water, cold or heat stress. The promoter can be derived from Gossypium hirsutum. A genetic construct with the promoter operably linked to a heterologous nucleic acid sequence of interest. A recombinant plant expression vector having the genetic construct. A host cell with the promoter or genetic construct or recombinant plant expression vector. A transgenic plant including the host cell where the transgenic plant is a monocot or a dicot plant. A transgenic seed produced from transgenic plant, where the seed is a monocot or a dicot seed. Methods of expressing a heterologous nucleic acid of interest in a plant.

Methods of making haploid plants.

The chloroplast vesiculation (CV) gene encodes a protein associated with stress-induced chloroplast degradation. Inhibiting expression or activity of the protein inhibits or delays stress-induced chloroplast degradation and confers tolerance to a variety of stress conditions. Alternatively, enhancing CV expression or activity promotes chloroplast degradation and enhances nutrient assimilation in desired sink tissues, such as young leaves, fruit, or seeds.

The present invention provides the specific expression promoters in rice and the application. The present invention applies the promoter in the plant genetic engineering. The sequence of the promoter provided in the present invention is composed of the nucleotide sequence shown in SEQ ID No. 1; the nucleotide sequence shown in SEQ ID No. 2; Or the nucleotide sequence shown in SEQ ID No. 3.

Embodiments of the present invention provide for a transgenic plan, methods of making and DNA constructs for use in the transgenic plant which transgenic plant is capable of modulating its photosynthetic antenna complex composition in response to increases or decreases in light intensity by modulation of the ratio of chlorophyll a to chlorophyll b such that there is an increase in the Chl a/b ratio at high light intensity and a decrease in the Chl a/b ratio at low light intensity versus wild-type plants grown in the same conditions.

Methods for stimulating plant growth and/or promoting plant health using free enzymes or recombinant microorganisms that overexpress enzymes are provided. Plant seeds coated with free enzymes or recombinant microorganisms that overexpress enzymes are also provided. Compositions comprising a fertilizer and an enzyme or a recombinant microorganism that overexpresses an enzyme are provided. Modified enzymes having ACC deaminase activity, recombinant microorganisms expressing the modified enzymes, plant seeds treated with the modified enzymes or recombinant microorganisms, and methods for stimulating plant growth and/or promoting plant health using the modified enzymes or recombinant microorganisms are also provided.

Compositions and methods for improving plant growth are provided herein. Polynucleotides, polypeptides, and expression constructs for expressing transcription factors (TFs) whose expression may improve agronomic properties including but not limited to crop yield, biotic and abiotic stress tolerance, and early vigor, plants comprising the polynucleotides, polypeptides, and expression constructs, and methods of producing transgenic plants are also provided.